In order to study structural aspects of sequence conservation in families of homologous proteins, we have analyzed structurally aligned sequences of 585 proteins grouped into 128 homologous families. The conservation of a residue in a family is defined as the average residue similarity in a given position of aligned sequences. The residue similarities were expressed in the form of log-odd substitution tables that take into account the environments of amino acids in three-dimensional structures. The protein core is defined as those residues that have less then 7% solvent accessibility. The density of a protein core is described in terms of atom packing, which is investigated as a criterion for residue substitution and conservation. Although there is no significant correlation between sequence conservation and average atom packing around nonpolar residues such as leucine, valine and isoleucine, a significant correlation is observed for polar residues in the protein core. This may be explained by the hydrogen bonds in which polar residues are involved; the better their protection from water access the more stable should be the structure in that position.
We report the derivation of scores that are based on the analysis of residue-residue contact matrices from 443 3-dimensional structures aligned structurally as 96 families, which can be used to evaluate sequence-structure matches. Residue-residue contacts and the more than 3 X lo6 amino acid substitutions that take place between pairs of these contacts at aligned positions within each family of structures have been tabulated and segregated according to the solvent accessibility of the residues involved. Contact maps within a family of structures are shown to be highly conserved (-75%) even when the sequence identity is approaching 10%. In a comparison involving a globin structure and the search of a sequence databank (>21,000 sequences), the contact probability scores are shown to provide a very powerful secondary screen for the top scoring sequence-structure matches, where between 69% and 84% of the unrelated matches are eliminated. The search of an aligned set of 2 globins against a sequence databank and the subsequent residue contact-based evaluation of matches locates all 618 globin sequences before the first non-globin match. From a single bacterial serine proteinase structure, the structural template approach coupled with residue-residue contact substitution data lead to the detection of the mammalian serine proteinase family among the top matches in the search of a sequence databank.
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